Electrical Engineering sillabus

1

PREFACE Alhamdulillah, praise thanks to Allah SWT because of the publishment of this Syllabus of Curriculum

Electrical Engineering Department which is meant to fulfill information needed about Electrical Engineering

Department of Undip.

This Syllabus renew every five year but the contents always matched with the updating technology at

the present day. Its also published every year before new school year so that student, administration staff and

lecturer and also another people outside Electrical Engineering Department of UNDIP would be able to made it

as a guidance to get to know better about the activity of teaching and learning, facilities and basic facilities and

also all the achievement which have been succeeded to be reached.

That’s all about the Syllabus of Electrical Engineering Department , we hope this would be able to be

used for all of the Civitas Academic and all of the stake holder as an information media to be the first step to

the future development of Electrical Engineering Department.

Semarang, August 2008

The Head of Electrical Engineering

Department

Ir. Sujadi, M.T NIP. 131 558 567

2

SYLLABUS OF ELECTRICAL ENGINEERING DEPARTMENT OF DIPONEGORO UNIVERSITY

COMPULSORY SUBJECT 1. RELIGION (UNG105) 3 Credit According to the MPK of UNDIP. 2. CALCULUS I (TKE151) 3 Credit Objective : Students would be able to master mathematics method and principles so that they would be able to

analyze physical phenomenon and also to form and to solve all the problems appears in engineering field.

Material : numbering system ( real and imaginary number ); Function and Graphics; Differentialand its Application; Integral and its Application; Transcendent Function; Polar Coordinate; Ranks and Progression; Calculus function with two or more variables.

Literature : 1. Erwin Kreyszig, Advanced Engineering Mathematics. 2. Leithold, The Calculus with Analytic Geometry. 3. Purcell, Kalkulus dan Geometri Analitis jilid I & II. ( translated by : Rawuh and Bana Karta Sasmita ) 4. Frank Ayres, JR., Ph.D, Schaum’s Outline of Theory and Problems of differential and Integral

Calculus. 5. Wilfred Kaplan, Donald Y. Lewis, Calculus and Linear Algebra Volume 1 dan 2. 3. BASIC OF PHISIC I (TKE152) 2 Credit Objective : Students would be able to recognize and understand natural laws and its logic as basic to solve

problems related to mechanics, light and sound wave and also optical introduction. Material : particle kinematics; particle dynamics; harmonic motion; work and energy; linear momentum; angular

momentum and rigid body; fluid statics; fluid dynamics; gas kinetics theory; law of thermodynamics I & II; sound wave, ultrasonic wave and light wave; preface of optic.

Literature : 1. David Halliday dan Robert Resnick, Physic I. 2. Marcelo Alonso & Edward I. Finn, Fundamental University Physic I. 4. BASIC OF ELECTRICAL ENGINEERING (TKE153) 2 Credit Objective : Students would be able to recognize and understand the rule and the fundament aspect in electrical

engineering science development. Material : General introduction of some concentrations in Electrical Engineering Department. Introducing the

role of basic electrical engineering sciences to understand the other subjects at the higher level.. Advanced introduction of electrical power engineering concentration, control engineering concentration, telecommunications and electronics concentration, informatics and computer system concentration. Giving an understanding of technological concept, the application and working area of electrical engineering in agriculture, fishery, husbandry, industry and health .

Literature : 1. Jujun Suria Sumantri : Pengantar Filsafat ilmu. 2. Buku panduan Teknik Elektro Universitas Diponegoro Spectrum Magazines, IEEE press. 5. BASIC OF COMPUTER AND PROGRAMMING (TKE154) 2 Credit BASIC OF COMPUTER AND PROGRAMMING LAB. WORK (TKE154P) 1 Credit Objective : Students would be able to understand the basic of computer system and its Ianguage, students also

have a capability to apply it in engineering field. Material : Concept of system, computer architecture; the basic of operating system; evaluation of high level

Ianguage and software; the basic of programming ( matlab, pascal, C); memory management; PC DOS and UNIX; the basic of database, introduction to the internet.

Literature : 1. Donald Sanders; Computer Today, McGraw –Hill. 2. Silverman Tarkey, Computer & Computer Language, McGraw-Hill 1988. 3. Ansi C, Problem Solving and Programming, Baclay Prentice Hall 1990. 4. Roger S. Pressman, Software Engineering Practitioners Approach, McGraw-Hill. 5. Matlab user guide, Mathwork 6. Jogiyanto, Pascal, Andi Offset

6. SPORT (TKE183) 0 Credit According to the MPK of UNDIP. 7. ENGLISH (TKE150) 2 Credit Objective : Students would be able to understand the good sentence stucture in English and also training “4 –

skills” (reading, writing, listening, speaking). Material : 4 skills concerning with electrotechnical, basic structural pattern, vocabulary, and english for academic

purposes (TOEFL like) and engineering. Literature : 1. English for Engineers Book 1 and 2.

3

8. BASIC OF ENERGY CONVERSION (TKE161) 2 Credit BASIC OF ENERGY CONVERSION LAB. WORK(TKE161P) 1 Credit Objective : Introducing basic principles of energy conversion. Material : The basic of mechanic to electric energy conversion; heat to electric, chemical to electric, and electric

to electric. Introduction to DC machines, AC machine. and transformator; the basic system of generating, distributing and electrical power loading.

Literature : 1. Archie, Culp, Prinsip-prinsip Konversi Energi. 2. B.L Theraja, Electrical Technology. 3. Zuhal, Dasar Teknik Tenaga Listrik, Gramedia. 9. SCIENCE OF BASIC SOCIAL AND CULTURE (TKE182) 2 Credit According to the MPK of UNDIP. 10. BASIC PHISIC II (TKE158) 2 Credit BASIC PHISIC LAB. WORK (TKE158P) 1 Credit Objective : Students would be able to know and understand the laws of nature and its logic as the basic to solve

problems related to magnet and electrics. Material : magnet and electricity : electrical force field; electrical potential; direct electricity; magnetic field;

motion force of glimpse electrics; acquirred electrics; Maxwell equation; wave, characteristic of wave, general character of magnetic wave, interferention and difraction, polarization of electric and magnetic wave.

Literature : 1. David Halliday dan Robert Resnick, Physics I. 2. Marcelo Alonso & Edward I. Finn, Fundamental University Physics I.

Prerequisite : Basic of Phisic I 11. CIVIC EDUCATION (UNG360) 2 Credit According to the MPK of UNDIP. 12. ELECTRICAL MATERIAL (TKE184) 2 Credit Objective : Students would be able to know and understand about materials used in Power Engineering field. Material : Application of quantum mechanics at solid substance, characteristics of insulation materials, solid,

liquid and gas, conductance, superconductance, and magnetics. Literature : 1. B. M Tarrev, Material for Electrical Engineering. 2. Lawrence H. Van Viack, Element of Material Science. 13. CALCULUS II (TKE157) 3 Credit Objective : Students would be able to master mathematics method and principles so that they would be able to


Material : Vector at R1, R2, and R3; algebra of vector; linear equation system; matrix; determinant and algebra of matrix; matrix inversion; linear transform; eigen value and eigen vector; Green’s, Gauss, and Stokes theorem; vector differential and integral; scalar field theorems

Literature : 1. D. Suryadi HS & S. Harini Machmudi, Teori & Soal Pendahuluan Aljabar Linier. 2. Erwin Kreyszig, Advanced Enginering Mathematics. 3. Seymour Lipschutz, Teori & Problem of Linear Algebra. 4. Milne, E.A, Vectorial Mechanics.

Prerequisite : Calculus I

14. INFORMATION TECHNOLOGY (TKE185) 2 Credit Objective : Students would be able to know the element concept of information and its technology Material : Definition of information; the necessity of technology and system; information technology used for

industrial purpose; educational; military, medical, and outer space. Literature : 1. Nicholas G. Carr. Does IT matter? 2. e-Book, Book on information Technology

15. ELECTRICAL DRAWING (TKE175) 1 Credit Objective : Giving an understanding of electrical drawing, and also give an ability to read the picture. Material : Paper size, various kind of line, electrical and electronic symbols, drawing electronic diagram and

electrical instalation. Literature : 1. Visio, Elexmedia komputindo. 2. B. Fith & J F. Lowe, Electrical Drawing. 3. Protel / Orcad 16. PROBABILITY, STATISTIC, AND STOCHASTIC (TKE166) 2 Credit Objective : Students would be able to master mathematics method and principles so that they would be able to


4

Material : Theory of association, probability principle, distribution functions, average and varians value, first, second, and third moment, standard deviation, estimation, expectation, regression, random process, and density function.

Literature : 1. Cramer, H., Mathematical Methods of Statistic. 2. Parzen, E., Modern Probability Theory and Aplications. 3. Feller, W., An Introduction of Theory and Its Applications. 4. Anastasious Papoulis, Random Variable and Stochastic Process. 5. Peebles, Random Variable and Stochastic Process. 17. ENGINEERING MATHEMATICS I (TKE164) 3 Credit Objective : Students would be able to master mathematics method and principles so that they would be able to


Material : Ordinary differential function order 1 and 2 with static coefficient, homogeneous and non homogeneous with an initial condition; solving problems with laplace transform; numeral progression method, Bessel and Fourier function, Fourier Integration, and Legendre Function.

Literature : 1. Erwin Kreyszig, Advanced Engineering Mathematics. 2. Birkhoff, G. , and G-C. Rota, Ordinary Differential Equations. 3. Robinson, P.D., Fourier and Laplace Transforms. 4. Spiegel, M.R., Advanced Mathematics Engineers and Scientist. Prerequisite : Calculus I 18. DIGITAL SYSTEM (TKE165) 3 Credit DIGITAL SYSTEM LAB. WORK (TKE165P) 1 Credit Objective : Students would be able to substract and analyze the application of digital circuit. Material : Numbering System, Boolean Algebra; Logic gate; minimize combinational circuit; sequential circuit;

digital arithmatics; counter and register; IC family; ADC/DAC; coding and conversion; detecting and correcting error; memory; digital system application.

Literature : 1. Ronald J. Tocci, Digital System: Principles and Application, Prentice Hall Intl Edition, 1988. 2. Samuel C. Lee, Digital Circuit and Logic Design. 3. John D. Lenk, Handbook of Digital Electronics. 4. Kastopoulos, Digital Engineering. 5. Wasito. S, Teknik Digital. 19. LINEAR SYSTEM (TKE168) 3 Credit Objective : Students would be able to use transform methods and signal manipulation. Material : Introduction to linear system; solving linear system using transform methods; steady state method.. Literature : 1. Oppenheim, Young, Signal ang Systems, Prentice Hall, 1983. 2. Naresh K. Sinha, Linear Systems, John Wiley & Son, 1991. 3. David K. Cheng, Analysis of Linear System. 20. ELECTRICAL CIRCUIT I (TKE156) 3 Credit Objective : Giving an ability to interpret electrical circuit with discret and linear component in so many

configuraton and also develop the understanding of circuit behavior. Material : Characteristic of power supply; Ohm’s Law; Kirchoff Law I and II; circuit topology; Thevenin-

Northon, Superposition, Mesh Current, Node Voltage, and Reciprocity theorem; complex number and phasor; serial and paralel circuit; complex, active, and reactive energy; magnetic chain circuit; transformator.

Literature : 1. R.J. Smith, Circuit Devices and System, John Wiley & Sohn 1984. 2. Hayt Williem H, Engineering Circuit Analysis, McGraw-Hill 1986. 3. D.E. Johnson, Basic Electric Circuit Analysis, Prentice Hall. 4. W. Edmister, Electric Circuit, Schaum Series. 21. BASIC OF TELECOMMUNICATION (TKE170) 2 Credit BASIC OF TELECOMMUNICATION LAB. WORK(TKE170P) 1 Credit Objective : Students would be able to know the basic of Telecommunication Engineering. Material : Component of basic of telecommunication; communication way; introducing signal in

telecommunication system; signal representation in domain frequency; modulation technique; communication media; telephone system; basic multiplexing technique; introduction of data communication.

Literature : 1. Suhana, Teknik Telekomunikasi. 2. Roddy & Coolen, Elektronika Komunikasi I. Prerequisite : Linear System; Engineering Mathematics I 22. BASIC OF ELECTRONICS (TKE167) 2 Credit BASIC OF ELECTRONICS LAB. WORK (TKE167P) 1 Credit Objective : Recognizing and giving an understanding about characteristic and special parameters of electronics

components, ration technique and method, network analysis with active component.

5

Material : Basic of semiconductor; characteristic of diode and its usage; characteristic of transistor (junction transistor, FET. MOSFET, etc) and its usage; substitute circuit of transistor; Low signal amplifier

Literature : 1. Jacob Millmann, Microelectronics, McGraw-Hill 1987. 2. Sedra, Microelectronics Circuit, Reinhart & Winston, 1987. 3. Hayes, Digital System Design and Microprocessor, McGraw-Hill 1986. Prerequisite : Electrical Circuit I 23. NUMERIC METHOD (TKE169) 2 Credit Objective : Students would be able to master mathematics method and principles so that they would be able to


Material : Basic knowledges of numeric method; definition of iteration algorithm, structure algebra, linear and non linear equation solution; numeric integration and diferentiation ; convergention and error in computing..

Literature : 1. Tremblay J.P. & Manohar R., Discrete Mathematical Structures with Application to Computer Science, McGraw-Hill New York, 1988..

2. Stephen C. Chapra, Numerical Method for Engineering, Mc Graw Hill. Prerequisite : Calculus I

24. ELECTRICAL CIRCUIT II (TKE173) 2 Credit ELECTRICAL CIRCUIT LAB. WORK (TKE173P) 1 Credit Objective : Introducing the principal elements of electrical machines and energy system component.. Material : Multiple phase system; four pole; Application of Laplace at : RLC circuit; transient circuit, step

response and impulse response circuit; frequency response; using Fourier in application circuit. Literature : 1. R.J. Smith, Circuit Devices ang Systems, John Wiley & Sons, 1984. 2. Hayt, William H, Engineering Circuit Analysis, McGraw-Hill, 1986. 3. D.E. Johnson, Basic Electric Circuit Analysis, Prentice Hall, 1990. Prerequisite : Electrical Circuit I, Engineering Mathematics I

25. ENGINEERING MATHEMATICS II (TKE172) 3 Credit Objective : Students would be able to master mathematics method and principles so that they would be able to

analyze physical indication and also to form and to solve all the problems appears in engineering field. Material : complex number; functions with complex coefficient; radius of convergention; differentiation of

complex function; singular dots; integration of complex field; integral contour; theory of residu; conformal mapping..

Literature : 1. Erwin Kreyszig, Advanced Engineering Mathematics. 2. Churchill, R.V., Complex Variables and Aplications. 3. Murray R Spiegel, Theory and Problem of Complex Variables. 4. Sokolnikoff Redneffer, Mathematics of Physics and Modern Engineering. 5. Ahlfors, L. V., Complex Analysis Prerequisite : Calculus II 26. ELECTROMAGNETIC FIELD (TKE171) 3 Credit Objective : giving an understanding about laws of nature and physical behavior of electrics field, students would

be able to translate it into mathematics model and would be able to give interpretation and also assessment to its use in engineering field.

Material : Electro-Static law ( application of state and vector equation ), electrostatic field analysis and calculation; Maxwell equation for flat wave in free space; dielectric; vector pointing; energy, transmition, polarization and reflection of wave; parameter and function transmission channel,; electromagnetic wave shield; Maxwell equation application..

Literature : 1. Hayt Wiliam H, Engineering Elektromagnetik, McGraw-Hill, 1989. 2. Krauss, J.D., Electromagnetic, Mc Graw-Hill, 1992. 3. Boadman, Electromagnetic Surface Mode, John Willey & Son, 1982. 27. BASIC OF CONTROL SYSTEM (TKE174) 2 Credit BASIC OF CONTROL SYSTEM LAB. WORK (TKE174P) 1 Credit Objective : Students would be able to create model system, find the characteristics and analyze arrangement

system pursuant to specification of time response, and mechanism of PID controller. Material : Basic definition of control system ; Open Loop and Close Loop Control System; Components of

control system ( Censor and of Tranducer, Signal Conditioning, P controller, PD controller, PI controller, PID controller, Actuator); Dinamic System Model ( PD representation, TF, block diagram, signal flow graph and state space); Characteristic of System ( Order 1, Order 2 and High Order); Analytic of PID controller.

Literature : 1. Ogata, Katsuhiko : "Modern Control Engineering", Prentice-Hall, 1990. 2. Jacob,J.M. : "Industrial Control Electronics : Aplications and Design", Prentice- Hall Inc.,

Englewood Cliffs, New Jersey 1989.

6

3. Gayakwad,R. dan Sokolof,L. : "Analog and Digital Control Systems", Prentice-Hall International, 1988.

4. Maloney,T.J. : "Industrial Solid State Electronics : Devices and Systems",Prentice-Hall Inc., Englewood Cliffs, New Jersey 1986.

Prerequisite : Linear System, Electrical Circuit I 28. ELECTRICAL MEASUREMENT (TKE159) 2 Credit ELECTRICAL MEASUREMENT (TKE159P) 1 Credit Objective : Introducing and giving an understanding about electrical measuring instruments and also its usage,

students would be able to know and master the technical procedure and the arrangement system and also the correctness boundary of measurement.

Material : Electrical measuring instruments; measuring method of electrical scale; analyze measurement and measuring error.

Literature : 1. Golding & Widdis, Electrical Measurement and Measuring Instrument. 2. M. Starki, K.M Wanterling, Electrotechnical Measurement. 3. AK. Sanwney, A Gouzse in Electrical and Electronic Measurement and Instrumentatica. 4. O Dublin, Measurement System.

29. INDONESIAN LANGUAGE (TKE186) 2 Credit According to the MPK of UNDIP. 30.ENTREPRENEURSHIP AND BUSINESS ETHICS (TKE163) 1 Credit Objective : Students would be able to understand the concept, the character and the soul of business. Material : Definition of entrepreneurship, entrepreneur culture, character of entrepreneur, delopment programme

of entrepreneurship culture (magang kewirausahaan, participation in community development project, student alternative creation, business consultancy and work assignment, incubator of new entrepreneur), ethics and behavior of business.

Literature : 1. Sriyana, “Kewirausahaan”, Salemba 4, Jkt, 2001. 2. Buchori, “Kewirausahaan”, Alfabeta, Bandung, 2001. 3. JG Longer Cekker, et.al.,”Kewirausahaan Manajemen”, Salemba 4, Jkt, 2001.

31. MICROPROCESSOR (TKE103) 3 Credit MICROPROCESSOR LAB. WORK (TKE103P) 1 Credit Objective : Giving basic knowledges , students would be able to analyze and design digital system based on

microprocessor and microcontroller.. Material : An introduction; definition and philosophy; application; data bus and address bus concept; control

system; memory map; microprocessor and microcontroller technology; basic hardware; .technique and concept of address decoding; interface technique; basic hardware planning; Assembly software; assembler; data communication between hardwares; application planning using microprocessor and microcontroller.

Literature : 1. Harry Garland , Introduction to Microprossesor and System Design. 2. Ricard H Barnett, PhD, Purdue university, The 8051 Family ofMicrocontroller, Prentice Hall. 3. Scott Mackenzie, university of Gulp Ontario The 8051 Microcontroller,Prentice Hall. 4. Handbook of Microcontroller 8 bit & 16 bit , Intel Corporation. 5. John Uffenbeck , 8086/8088 Family , Prentice Hall 1987. 6. Sencer Yeraland, and Ashutosh Ahluwalia, Programming and Interfacing The 8051, Addison

Weshley Publishing. 7. Tokheim, Introduction to Microprocessor, Schaum Outline Series. Prerequisite : Digital System, Basic of Computer and Programming 32. FIELD TRAINING (TKE175) 2 Credit Field training done by the students in working environment, is it in industry, research institute or etc will be good in giving picture about working environment they have to face , beside to give job experience and extend their horizon. ( Enabled for student which have obtained the class till 6 semester )

33. RESEARCH METHOD (TKE176) 2 Credit Objective : Students would be able to make research proposal for final project and self-supporting research

according to research methodologies method for engineer. Material : Definition of research method; research types, the step of arranging research proposal, the step of

arranging final project and research proposal, orders in arranging and writing final project and research proposal, order in writing of final duty report and result of research, using statistic and mathematics in research and also computer usage in research; presentation technique of research result, making final duty proposal, making individual research report and proposal, presentation of proposal final project according to yhe concentration, presentation of research result.

Literature : 1. Teknik Penulisan Laporan Ilmiah, ITB. 2. Metodologi Penelitian untuk Insinyur, Prof. DR. Ir. Faraz Umar. 3. Handbook of Research Method Muhammad cs., Metodologi Penelitian Teknologi. 4. Leedy, Paul D, Practical Research: Planning and Design, McMillan 1974.

7

34. MANAGEMENT OF INDUSTRY & PROJECT (TKE162) 2 Credit Objective : Students would be able to know and understand economic and industrial management concepts. Material : Factory and industry concept; setting factory location; factory arrangement and evacuation of

materials; studying movement and time to increase work productivity; planning of factory; industrial; economical technique, network planning, evaluating project.

Literature : 1. De Garms, Engineering Economy edisi ke-7. 2. Skrotzky, Power Station Engineering and Economic. 3. Devitsitis, Operation Management. 4. Spingel & William R, Industrial Management. 5. S. Kadariah, Evaluasi Proyek, UI Press Prerequisite : Calculus I

35. PARTICIPATION IN COMMUNITY DEVELOPMENT PROJECT (TKE177) 3 Credit 36. FIELD WORK (TKE180) 0 Credit 37. FINAL PROJECT (TKE181) 4 Credit

8

SYLLABUS OF ELECTRONICS ENGINEERING & TELECOMMUNICATIONS CONCENTRATION 1. DIGITAL SIGNAL PROCESSING (TKE108) 3 Credit

Objective : Gives basic knowledge about digital signal and digs signal processing methods and its aplication. Material : Signal sampling concept, time-frequency analysis, Fourier transform, DFT and FFT, Z transform, digital

filter scheme, aplication of digital signal processing of noise reduction. Literature :1. Roman Kuc, Introduction to Digital Signal Processing

2. Antoniau, Digital Filter Analysis and Design. 3. Emmanuel C. I. dan Barrie W. J., Digital Signal Processing: A Practical Approach.

Prerequisite : 2nd EngineeringMathematics, Digital Engineering

2. TELECOMMUNICATION NETWORK (TKE100) 3 Credit Objective : recognizes audio communication network, video and data, and gives basic understanding of

telecommunication network component works. Material : PSTN network architecture, Digital Telephony, Digital Switcing, Access Network (Local), Multiple

Access Technique, Transport Network (Trunk) PDH, SDH, SONET, Signalling Network, CCS7, Synchronization Network, PLMN, Introduction of ISDN, Routing and National Network Rate.

Literature :1. John Bellamy, Digital Telephony 2. William Stalings, ISDN & B ISDN With STM & Frsme Relsy 3. Rogger L. Freeman, Telecommunication Transmission Handbook 4. Talley, David, Basic Telephone Switching Systems 5. John L., Fike, Ph.D, P.E., Understanding Telephone Electronics. 6. New materials from internet www. Iec. org Prerequisite : Basic Telecommunication System

3. TRANSMISSION CHANNEL (TKE101) 2 Credit Objective : Gives basic knowledge about transmission and signal filtering for communication purpose. Material : Transmission line, reflectance of transmission line, transmission line for radio signal, filter concept, low

pass filter, high pass filter, band pass filter. Literature : 1. G.K. Mithal, Network Analysis. 2. Johnson, Transmission Line and Network Prerequisite : 1st Engineering Mathematics, 2nd Electic Circuit, Electromagnetic Field

4. TELECOMMUNICATION SYSTEM (TKE104) 3 Credit TELECOMMUNICATION SYSTEM LAB WORK (TKE104P) 1 Credit Objective : recognizes the basic of telecommunication engineering Material : component and basic Telecommunication system, communication mode, Signal Recognition of

Telecommunication System, Signal Representation on frequency domain, modulation technique, communication media, telephony system, basic multiplexing system, introduction of data communication.

Literature : 1.Suhana, Teknik Telekomunikasi 2. Roddy & Coolean, Elektronika Komunikasi I Prerequisite : Linear System, Sistem Linier, 1st Engineering Mathematics

5. DIGITAL SYSTEM DESIGN (TKE114) 2 Credit DIGITAL SYSTEM DESIGN & DSP LAB WORK (TKE114P) 1 Credit

Objective : able to design digital system aplication Material : combinational circuit design, sequential circuit design, interface RAM design, interface ROM design Literature : 1. Ronald J. Tocci, Digital System: Principles and Application, Prentice Hall Intl Edition, 1988 2. Samuel C. Lee, Digital Circuit and Logic Design 3. John D. Lenk, Handbook of Digital Electronics Prerequisite : Digital Engineering, Basic Electronics 6. ANALOG ELECTRONICS (TKE102) 3 Credit ANALOG ELECTRONICS LAB WORK (TKE102P) 1 Credit

Objective : recognizes and gives basic knowledge about various amplifiers with various characteristics. Material : Cascade amplifier, feedback amplifier, oscilator, controlled power amplifier, narrow band amplifier and

wide band amplifier, power amplifier class A, class AB, class B, and class C, Operational Amplifier Literature : 1. Millman – Holkias, Integrated Electronics

2. Bernard Grab, Electronic Circuit and Applications 3. Charles L Alley – Kenneth W. Afwood, Electronic Engineering

Prerequisite: Basic Electronics

7. THEORY OF INFORMATION AND CODING (TKE105) 3 Credit Objective : gives basic knowledge about information measurement and its coding. Material : Information content concept, entropy function, basic coding, Huffman coding, arithmetic coding, coding

element, information theory application. Literature : 1. Taub dan Schiling , Principles of Communication Systems. 2. Fazlollah M. Reza, Introduction to Information Theory.

9

3. C.E. Shannon, A Mathematical Theory of Communication. Prerequisite : Probability, Statistic dan Stochastic

8. DIGITAL COMMUNICATION (TKE109) 3 Credit

Objective : comprehends and assesses digital communication which is including channel coding processing, modulation and demodulation, enscription and description, multiple and demultiple access.

Material : Digital Modulation and Demodulation which is including MPSK, MQAM, MFSK. Coding: Line Encoding, Block Code, convolution code, Interleaver, Introduction of voice, data, image and video compression, Spread Spectrum (Direct Sequence & Frequency Hopping), Enscription and description

Literature : 1. Terplan, Digital Communication 2. Simon Haykin, Digital Communication 3. Proakis, Digital Communication 4. Introduction to Spread Spectrum

Prerequisite : Telecommunication System 9. ANTENNA AND PROPAGATION (TKE110) 3 Credit

Objective : Gives basic knowledge about antenna and its design. Material : Definition and antenna’s parameter, radiation intensity, point source, point source array, linear antenna,

dipole, loop antenna, helix, antenna with reflector, antenna measurement, introduction of radio propagation. Literature : 1. Krauss, Antennas and Its Applications, McGraw-Hill

2. Collins, Antennas and Radiowaves Propagation Prerequisite : Electromagnetic Field

10. TRAFFIC ENGINEERING (TKE113) 3 Credit Objective : Comperehends basic traffic design of telecommunication system. Material : Magnitude and traffic variation, condition diagram, distribution of probability: Poisson, Erlang, etc,

congestion, ERM, link system (Jacobaeus, graf) routing; networking dimension; NNGOS evaluation (Gaudreau), waiting system, prediction.

Literature : 1. Telecom Australia, A Course in Teletraffic Engineering 2. Siemens, Telephone Traffic Theory : Tables and Chart 3. A. Elldin & G. Lind, Elementary Telephone Traffic Theory

Prerequisite : 1. Probability, Statistic and Stochastic 2. Telecommunication System

11. TELECOMMUNICATION ELECTRONICS (TKE117) 3 Credit

Objective : Comperehends electric circuit is relating to telecommunication. Material : Designs basic radio techniques and television technique teorithically and practically as according to

technology development. RF Amplifier, oscillator. Modulator and demodulator AM, FM and PM. Transmitting and receiving equipments. Black and white TV, colour TV.

Literature : 1. D. Roddy, John Coolen , Electronics Communications, Reston Pub.Com.Inc.1997. 2. G. Kennedy and B. Davis, Electronics Communication Systems, McGraw-Hill Book Co., 1998 3. Tomasi, Modern Electronic Communication Prerequisite : Telecommunication System, Analog Electronics

12. DIGITAL IMAGE PROCESSING (TKE115) 3 Credit

Objective : Gives understanding about digital image processing concept, and digs processing algorithms and its applications.

Material : Imaging cocept, 2-dimension basic mathematics, image processing, image analysis, segmentation and thresholding, image bundle system, image processing application.

Literature : 1. Anil K. Jain, Fundamentals of Digital Image Processing. 2. John C. Rush, The Image Processing Handbook.

Prerequisite : Digital Signal Processing

13. TRANSMISSION ENGINEERING (TKE116) 3 Credit Objective : Gives basic understanding about design of transmission network communication system. Material : Basic transmission network system design, telephony transmission, microwave link, satellite, HF

transmission, and video transmission. Literature : Roger L. Freeman, Telecommunication Transmission Engineering. Prerequisite : Telecommunication System

14. ADVANCED DIGITAL SIGNAL PROCESSING (TKE127) 3 Credit Objective : Gives continuation knowledge about digital signal processing and digs signal processing method and its

application. Material : Bank filter, Wiener filter, adaptive filter and its application, introduction of spectral estimation, wavelet

introduction, introduction of Kalman filter. Literature :1. Proakis J.G., Advanced Digital Signal Processing, McGraw-Hill

2. Bernard & Widrow, Adaptive Signal Processing 3. E. Ifeachor dan Barrie W. Jervis, Digital Signal Processing: A Practical Approach

Prerequisite : - Probability and Statistic

10

- Digital Signal Processing 15. OPTICAL ELECTRONICS (TKE112) 2 Credit

Objective : Recognized and gives basic knowledge about optical electronics. Material : Electromagnetic theory, bundle and signal propagation (in the fiber), light source (Laser, LED), Wave

Guide Optic, light detector (photo dioda), optical fiber for optical communication, otptical loss, loss of optical fiber, optical coupling of optical fiber, integrated optical application.

Literature : 1. Amnon Yariv, Optical Electronics 2. Francis A Jenins – Harvey E. White, Fundamentals of Optics

Prerequisite : Electromagnetic Field, Basic Electronics

16. MOBILE COMMUNICATION (TKE129) 3 Credit Objective : Comperehends mobile communication system Material : cell concept, cellular system design, radio wave propagation model, GSM technology, CDMA technology,

wireless LAN (Wifi), multi carrier system, 3G, 4G, and wireless communication network. Literature : 1. William C.Y. Lee, Mobile Cellular Telecommunications System, McGraw-Hill, 2000 2. Rapaport, Wireless Communications, Prentice Hall Prerequisite: Telecommunication System

17. TELECOMMUNICATION NETWORK PERFORMANCE (TKE131) 3 Credit

Compact syllabus : Network performance concept, throughput, GOS, QOS, delay, Analysis and Network Performance Evaluation : Analysis method, modelling and simulation, measurement method and network management (experimental method), network design issues, circuit switched system : general multi-stage analysis; packet network : data link protocol performance, flow control; LAN modelling, client-server computing model; ATM: traffic & management control, congestion control; traffic source modelling. Literature : 1.M Ghanbari, CJ Hughes, MC Sinclair, JP Eade, Principles of Performance Engineering for Telecommunication &

Information Systems 2 Mischa Schwartz, Telecommunication Networks Protocols, Modeling and Analysis, Addison Wesley 3.Thomas G. Robertazzi, Computer Networks & Systems: Queueing Theory & Performance Evaluation, 3rd ed.,

Springer-Verlag, 2000. 18. WIRELESS SENSOR NETWORK (TKE132) 2 Credit Objective : Comperehends concept and distributed Sensor network application in wireless system. Material : Sensor concept, array censor, signal processing, and wireless network. Literature : 1. Handbook of Wireless Sensor Network 2. Sensor Array Processing Prerequisite : - Digital Signal Processing - Telekommunication Network

19. MATLAB PROGRAMMING (TKE134) 2 Credit Objective : Comperehends and able to applicate Matlab programming to make digital signal processing simulation and

digital image processing. Material : Basic commands on Matlab, functions, GUI, dan Simulink Literature : Matlab Programming, dari Mathworks Prerequisite : - Mathematics - Digital Signal Processing

20. DIGITAL SPEECH PROCESSING (TKE118) 2 Credit

Objective : Gives basic understanding about digital voice processing and digs processing methods and its application.

Material : Digital voice processing model, voice signal coding, frequency- time domain, homomorphic analysis for pitch determination, formant analysis, digital voice signal processing application.

Literature : 1. L.R. Rabiner dan R.W. Schafer, Digital Processing of Speech Signal. 2. L.R. Rabiner dan Juang, Fundamentals of Speech Recognation.

Prerequisite : Digital Signal Processing 21. PATTERN RECOGNITION (TKE119) 2 Credit Objective : Gives basic understanding about pattern recognition principles and digs recognition methods also

applicate its algorithm. Material : Pattern recognition concept, decision function, classification with decision function, classification with

equality function, characteristic election, classification with nerve network. Literature : 1. Principles of Pattern Recognition

2. Haykin, Neural Network: A Comprehesive Foundation.

22. DATA COMMUNICATION (TKE107) 3 Credit Objective : Comperehends data communication processing at various data communication network infrastructures.

11

Material : Architecture and protocol, data transmission, transmission media, coding data, data communication interface, datalink control, multiplexing, packet switching, ATM, Frame Relay, ISDN, B-ISDN

Literature :1. DC Green, Data Communication, Longman Group – UK, 1991 2. William Stallings, Data and Computer Communication, Prentice Hall, 2000

23. INTERFACE AND PERIPHERAL (TKE106) 2 Credit Objective : Comperehends basic interface principle in digital electronic system and computer. Material : Bus Interfacing, I/O Interfacing, Memory Interfacing, two way communication principle, Handshaking,

Serial & Parallel interfacing, Data Transfer, Digital Standard Interfacing, Timing system, Interupt & DMA system, D/A, A/D, transduscer, Signal conditioning, LAN actuator, WAN, Sofware Interfacing.

Literature : 1. Digital Data Bus,Hand Book. 2. Krutz, R.L, Interfacing Techniques in Digital Design, John Wiley and Sons, 1988. 3. Rodnay Zaks, Microprocessor Interfacing Techniques, 1989. 4. James W Coffron, The IBM PC Connections, 1986

Prerequisite: - Microprocessor 24. STANDARDISATION (TKE037) 3 Credit According to MKB Diponegoro University 25. RADIO AND TV ENGINEERING (TKE128) 2 Credit

Objective : After following this subject, student expected able to explain basic concept, modulation, work mechanism, and characteristic of radio and television communication. Then can determine certain characteristics in determining damage diagnosa at part of television receiver.

Material : radio communication concept (basic concept, modulation, multiplexing, radio receiver), hereinafter is aimed at television system (basic television, TV B & Wand colour, TV camera, TV transmission, and television set repairment).

Literature : 1. Kennedy, 1992, Electronic Communications Systems, Mc Graw Hill. 2. Herbert, 1990, Teknik Radio Benda Padat, UI. 3. Rodden, Dennis & Coolen, John, 1981, Electronic Communication, Prentice Hall. 4. Bernard Grob, Sahat Pakpahan, Sistem Televisi & Video.

12

SYLLABUS Of ELECTRICAL POWER TECHNIQUE CONSENTRATION 1. ELECTRICAL MACHINES I (TKE403) 2 credits

PRACTICAL WORK OF ELECTRICAL MACHINES I (TKE403P) 1 credit Objective :

Comprehending characteristic and process of an electrical direct-current machines, can chosen to operate and install direct-current machine, comprehending characteristic and process of transformer and tools and also the maintenance.

Material : Analysis the way of armature winding excitement, armature reaction, computation, characteristic, process of generator and motor according to its excitement (separated, shunt, series, and compound excitement); operating, setting, and brake; efficiency, temperature rises, the time constant; kinds of special direct-current machines, stepper motor; principle and work-characteristic of a power transformer, voltage transformer, and current transformer; transformer process in a system, transformers in parallel work, losses and efficiency of transformer, loading of transformer, winding connection in transformer, clock numbering and vector of transformer, harmonization in transformer, maintenance of transformer.

References : 1. Siskiend, Electrical Machine 2. Fitsgeral, Electric Machinery 3. Sulasno, Teknik Tenaga Listrik 4. Zesteake, Electrical Machines Part I.

2. THERMODYNAMICS AND PRIME MOVER (TKE407) 2 credits

Objective : Mastering thermodynamics theory to solve thermodynamics problem in electrical technique, mastering heat movement concept and law to calculate the heat movement.

Material : Thermodynamics laws I,II, and III; enthrophy; reversible and irreversible process; characteristic function; thermodynamics usage in problems; steam production and steam kettle; heat movement by convection, radiation, and conduction; heat exchanger; power cycle rankine type, brayton type, otto type, diesel type, mixture pressure type, carnot type, and refrigeration type; fluids characteristic in power station of turbine (water turbine, steam turbine).

References : 1. WC Reynolds, Henry, Termodinamika Teknik, Edisi Kedua, 1982. 2. Schaun Series, Fluid Mechanics.

3. ELECTRICAL MACHINES II (TKE404) 2 credits

PRACTICAL WORK OF ELECTRICAL MACHINES II (TKE404P) 1 credit Objective :

Comprehending and capable to analyze parameter and characteristic of asynchronous and synchronous machines, and also other alternating-current machines.

Material : Work-principle of induction motor and generator, parameter, equivalent circuit and characteristic of single-phase and three-phase induction motors; Work-principle of synchronous generator and motor, parameters, equivalent circuit and characteristic of single-phase and three-phase synchronous motors; Influence of salient pole and cylindrical pole, work-parallel of synchronous machines, introduction of complex park transformation, interpoles axis and pole axis theory (d-q axis), synchronous generator and motor models and dynamics; work-principle, characteristic, and process of universal motor, fractional motor, and half-phase motor.

References : 1. Fitzgerald A.E., Electric Machinery, McGraw-Hill, 1985. 2. Nagrath, Kothari, Electric Machinery, Tata McGraw-Hill, 1990. 3. SK. Sen, Rotating Electrical Machinery. 4. B.L. Theraja, Electrical Technology.

4. ELECTRIC POWER TRANSMISSION (TKE403) 2 credits

Objective : Comprehending elements and modeling of power system components, knowing and calculating characteristic of power system element and aspects in power distribution.

Material : Basics of power system, power system components, series impedance of air-duct and underground-duct, capacitance of air-duct and underground-duct, current, voltage, active and reactive power relationship, kinds of duct, equivalent circuit and power equation representation, ‘dua pintu’ circuit, ABCD constant and series-parallel relation, unity system and component modeling, power distribution distribution (power circle), mechanics aspect of air passing (corona), active and reactive power compensation, introduction of power system grounding, planning of transmission line by considering parameter and its electric circuit.

References : 1. WD. Stevenson Jr, Element of Power System Analysis, McGraw-Hill, 1982. 2. Turan Gonen, Modern Power System, John Wiley & Son, 1989.

13

3. Giles, Layout of EEHV Substation, McGraw-Hill, 1982. 4. Fischer & Kiesling, Freileitung Plannung Berechnung und Ausferhrung Springerverlag, 1982.

5. ELECTRIC POWER DISTRIBUTION SYSTEM (TKE406) 2 credits

Objective : Comprehending and capable to analyze electric power distribution line system.

Material : Electric power distribution concept; architecture and equipment of distribution system; network structure and topology; introduction of load estimation; power flow of radial and loop distribution line; voltage regulation and avtive power compensation; analysis of disturbance and distribution line protection equipment.

References : 1. Turan Goenen, Electric Power Distribution System, McGraw-Hill, 1988. 2. Pabla, Power Distribution, McGraw-Hill, 1981. 3. Jones, Distribution System Engineering, John Willey, 1986. 4. E. Lakervi & EJ Holmen, Electricity Distribution Design, IEEE Power Engineering Network Design,

1989. 5. Sulasno, Distribusi Tenaga Listrik, BP-UNDIP, 2001.

6. HIGH VOLTAGE GENERATION, MEASURING, & TESTING (TKE405) 2 credits

Objective : Comprehending high voltage technique equipments and way of its measuring and testing.

Material : Method and equipment, high voltage generation, testing, and high voltage measuring for high voltage equipment, power switching, high voltage insulation solid type, fluid type and gas, cabbles, coils, arrester and substation equipment, air insulator for EHV and UHV system.

References : 1. Kase, Summary of Overvoltage Protection of Transients on Equipment Performance. 2. Razevig, High Voltage Engineering.

7. HIGH FIELD SYMPTOM (TKE402) 2 credits

Objective : Comprehending basics of high voltage technique consist of field basic theory, breakdown voltage theory and high voltage transient symptom, also traveling wave analysis.

Material : Basics of electric field and magnetic field; mechanism of magnetic field and electric field breakdown on insulation material; electromagnetic compatibility in power system and industry; thunder surge, traveling wave, corona mechanism, transient symptom in electrical machine.

References : 1. Kind D & Kaerner H., High Voltage Insulation Technology, Fried. Vieweg & Sohn, Brauschweig,

1985. 2. Kin D., Pengantar Eksperimental Teknik Tegangan Tinggi, Penerbit ITB, 1993. 3. Kuffel E & Zaengl WS, High Voltage Engineering, Pergamon Press London, 1998.

8. ELECTRIC POWER GENERATION (TKE413) 2 credits Objective :

Comprehending work mechanism and designing of kinds of prime mover for electric power station, understanding work-mechanism and designing electric power station for example steam power station (PLTU), nuclear power station (PLTN), gas power station (PLTG), diesel power station (PLTD), and OTEC.

Material : Installation, components, and operation of electric power station steam power type (PLTU), nuclear power type (PLTN), diesel power type (PLTD), gas power type (PLTG), water power type (PLTA), gas and steam power type (PLTGU).

References : 1. Arismunandar, Turbin Penggerak Awal. 2. Benson R S, Internal Combushion Engine. 3. Coken CS, Gas Turbine Theory. 4. Carr, Electric Power Station, Vol. I & II. 5. Skrotzki, Power Station Engineering Economy. 6. Sulasno, Pembangkit Tenaga Listrik.

9. ILLUMINATION AND ELECTRIC INSTALLATION (TKE412) 2 credits

ILLUMINATION AND ELECTRIC INSTALLATION LAB WORK (TKE412P) 1 credit Objective :

Comprehending and capable to design illumination and electric installation according to electricity regulation.

Material : Basic interpretation of illumination, definition and relationship of mulberries of lamination, intensity, flux, brightness, reflection radiation, equal angle, coefficient factor, calculation method of illumination indoor and outdoor; Definition, term, component symbol in electric installation, conductor and its installation, planning

14

and describing of simple house, level house, building and wide buildings installation design, planning and choosing switches, size of conductor, connect tools, protection, meter, and human safety and tools of leaky current to ground disturbance.

References : 1. PUIL 1987 2. PUIL 2000 3. Gupta & P. Van Harten, Electrical Installation. 4. John E. Traister, Electrical Design for Building Construction. 5. Van Nostrad, Ilumination.

10. POWER ELECTRONICS (TKE408) 2 credits

POWER ELECTRONICS LAB WORK(TKE408P) 1 credit Objective :

Comprehending and capable to analyze and design electronics circuit as AC-AC, DC-DC, DC-AC, and AC-DC power regulator.

Material : Components in power electronics, power and controller circuit, rectifier circuit, DC chopper, inverter and cycloconverter, natural and compulsion commutation, AC-AC converter, harmonics analysis.

References : 1. Bedford & Hoft, Principles of Inverter Circuit, John Wiley & Son, 1964. 2. Herman D., An Introduction to Power Electronics, ITB, Verlag, 1986.

11. HIGH VOLTAGE EQUIPMENT (TKE411) 2 credits

Objective : Comprehending function, work principle and characteristic of high voltage equipment, and choosing high voltage equipment.

Material : Kinds of high voltage equipment, such as bushing, arrester, insulation; work-principle and characteristic of high voltage equipment; choosing, coordination, and placement of high voltage equipment.

References : 1. Kind D & Kaerner H., High Voltage Insulation Technology, Fried Vieweg & Son, Brauschweig, 1985. 2. Kind D., Pengantar Eksperimental Teknik Tegangan Tinggi, Penerbit ITB, 1993. 3. Kuffel E & Zaengl WS., High Voltage Engineering, Pergamon Press London, 1988. 4. Ir. Hermagasantos, M.Sc, Teknik Tegangan Tinggi.

12. ELECTRICAL MACHINE USAGE (TKE410) 2 credits

ELECTRICAL MACHINE USAGE LAB WORK(TKE410P) 1 credit

13. ELECTRIC POWER SYSTEM ANALYSIS (TKE415) 2 credits

Objective : Comprehending and capable to analyze constant, parameter, and operation relationship also function of electric power system component.

Material : Construction of model and calculation of admittance and line impedance matrix, power flow calculation by Gauss, Gauss-Seidel, Newton-Raphson Method, symmetrical components, disturbance and symmetrical and non-symmetrical short circuit analysis, series short circuit disturbance.

References : 1. Sulasno, Analisa Sistem Tenaga Listrik, Satya Wacana, 1993. 2. Stevenson, Element of Power System Analysis, McGraw-Hill, 1975. 3. Wagner, Symmetrical Components, Robert E. Krieger, 1982. 4. Gross, Modern Power System Analysis, John Wiley & Son, 1986. 5. Sulasno, Analisa Sistem Tenaga Listrik, BP-UNDIP, 2001.

14. PROTECTION AND RELAY SYSTEM (TKE409) 3 credits

PROTECTION AND RELAY SYSTEM LAB WORK (TKE409P) 1 credit Objective :

Comprehending problems of over voltage disturbance and over current disturbance in electric power system and the way of its prevention by using protection tools.

Material : Protection philosophy, kinds of disturbance in electric power system, concept of relay and protection system coordination in generator, transformer, and transmission line, busbar, electrical motors; propagation surge over voltage and its protection tools.

References : 1. Rao, System Protection Static Relay, McGraw-Hill, 1983. 2. IEEE Press, Protective Relaying for Power System, 1980. 3. Greenwood, Electrical Transient in Power System, John Wiley, 1992. 4. Diesendorf W., Insulation Coordination on High Voltage AC System, 1974.

15

15. STABILITY AND RELIABILITY (TKE414) 2 credits Objective :

Comprehending criteria of power system reliability and capable to calculate stability and reliability of electric power system.

Material : Definition of stability of electric power system, linear model of power system component, excitation effect in stability, transient stability, steady state stability, voltage stability for single machine and compound machine; basic concept of probability and reliability, transmission and distribution line reliability, static reliability of generation capacity.

References : 1. Paul Anderson, AA Fouad, Power System : Control and Stability, IEEE Press, Power Engineering

Series, 1993. 2. Billiton, Reliability Evaluation of Power System, Pitmen Publishing.

16. ELECTRIC POWER SYSTEM GROUNDING (TKE416) 2 credits

Objective : Capable to comprehend and design appropriate grounding method in power system.

Material : Type and factor of power system grounding, grounding method, grounding equipment of transmission, generator, power transformer, and middle and low voltage equipment; ground resistance, grounding system resistance, calculation of substation grounding, case simulation of common neutral multi grounded system, low resistance, high resistance, and Petersen.

References : 1. T.S. Hutahuruk, Pengetanahan Sistem Tenaga, Erlangga. 2. Green Book – Electrical Grounding, IEEE. 3. PUIL 1987. 4. PUIL 2000.

17. COMPUTER APPLICATION IN ELECTRIC POWER SYSTEM (TKE417) 2 credits COMPUTER APPLICATION IN ELECTRIC POWER SYSTEM LAB WORK (TKE417P) 1 credit Objective :

Comprehending usage of computer program for solving problems in electric power system. Material :

Programming and usage computer software in review of operation matrix and spare matrix in power system, optimation and linear program, complex Park equal transformation, differential equal solution and handling non-linear problem, interaction of machine model, line and control device, power flow analysis by restriction (loop and radial system), security problem, short-circuit, stability, reliability, and contingency.

References : 1. Stagg El Abiad, Computer Methods in Power System Analysis, McGraw-Hill, 1968. 2. George L Kusic, Computer Aided Power System Analysis.

18. PLANNING ELECTRIC POWER STATION (TKE418) 2 credits

Objective : Comprehending work mechanism and planning kinds of prime mover for electric power station, comprehending work mechanism and planning electric power station for example steam power station (PLTU), nuclear power station (PLTN), gas power station (PLTG), diesel power station (PLTD).

Material : Inside burn motor; fuel and oil of burn motor; gas turbine, steam turbine; way of process, speed controlling, combination cycle of gas and steam; steam kettle, steam production, water turbine, way of process and speed controlling; installation and electric power station compenents : steam power station (PLTU), nuclear power station (PLTN), diesel power station (PLTD), gas power station (PLTG).

References : 1. Arismunandar, Turbin Penggerak Awal. 2. Benson R S, Internal Combushion Engine. 3. Coken CS, Gas Turbine Theory. 4. Carr, Electric Power Station, Vol I & II. 5. Skrotzi, Power Station Engineering Economy. 6. Sulasno, Pembangkit Tenaga Listrik.

19. POWER ELECTRONICS CONTROL CIRCUIT (TKE430) 2 credits

Objective : Capable to design and analyze control system which is used in power electronics circuit, using analog electronics circuit even digital electronics circuit.

Material : Basic circuit of Op-Amp, usage of analog circuit in control system : AC-DC, DC-DC, DC-AC, and AC-AC converter; Digital control basic in power electronics, application of microcontroller, principle of PWM modulation.

References : 1. Klemens Heumann, Basic Principles of Power Electronics, Springer-Verlag.

16

2. SCR Manual, General Electric. 3. M. Rasshid, Power Electronics, Circuits, Devices, and Applications, Prentice Hall International.

20. IT APPLICATION IN ELECTRIC POWER SYSTEM (TKE431) 2 credits

Objective : 1. Comprehending how important IT application in power system field. 2. Design IT application in power system. 3. Make IT application in power system.

Material : 1. Use of Information Technology in electric power system. 2. Geographical Information System (GIS)

a. Component in GIS b. Data Saving c. Data Model

3. Architectur of GIS Application a. Hardware b. Network c. Application d. Database

4. Aplication of Information Technology in Electric Power System : Network settlement, client settlement, public road lightning lamp settlement, and other.

References : 1. Denny Charter, Ima Agtrisari, Desain dan Aplikasi Geographical Information System, Elex Media

Komputiando, Jakarta 2003. 2. Esri, Getting Started with MapObjects Version 2.2 in Delphi 5.0, Environmental Systems Research

Institute, inc. 2003. 3. Esri, Building Applications with MapObjects, Environmental Systems Research Institute, Inc., 2003. 4. John Wiley and Son, William J, Mechanical and Electrical Equipment for Buildings, 6th Ed.,

McGuinness, 1981. 5. Murdoch B. Joseph. Illumination Engineering from Edison Lamp to the laser, Macmillan Publishing

Company, New York, 1985. 6. Robi’in Bambang, Pemrograman Grafis Multimedia Menggunakan Delphi, PT. Andy, Yogyakarta,

2004. 21. ELECTRIC ENERGY CONSERVATION (TKE428) 2 credits

Objective : Students will comprehend, explain and evaluate building plant in order to energy conservation.

Material : Background and development energy conservation, regulation and policy of energy, electric base for energy conservation, measuring instrument of energy conservation, energy consumer equipment, energy audit procedure, primary and secondary data, analysis and probability of energy thrift, recommendation, report of energy audit.

References : 1. NN, Electrical Engineering Handbook, Siemens AG, London, 1969. 2. NN, Standart Nasional Indonesia (SNI 03-6196-2000, SNI 03-6090-2000 dan SNI 03-6197-2000). 3. Ir. M. Igbal Hasan, Pokok-Pokok Statistik 1 dan 2, Bumi Aksara 1999. 4. HG Thhuensen, WJ Fabrycky, GJ Thuensen, Engineering Economy, Prentice-Hall of India Private

Limited, New Delhi, 1981. 5. Wayne C Turner, Energy Management Hand Book, Johns Wiley & Sons, USA, 1982. 6. Joseph A. Edminister, Rangkaian Listrik, Penerbit Erlangga, Jakarta, 1994. 7. Prof. Dr. Sugiyono, Statistic untuk Penelitian, Penerbit Alfabeta, Bandung, 2006. 8. NN, Pedoman Pelaksanaan Konservasi Energi dan Pengawasannya di Lingkungan Depdiknas, Jakarta,

2006. 9. Karnoto, Tarsiah S Hardiono, Agung Warsito, Sosialisasi dan Evaluasi diri Konservasi Energi

Universitas Diponegoro, Badan Penerbit UNDIP, 2003. 10. NN, Audit Energi, Dirjend Listrik dan Pengembangan Energi Dept. Pertambangan dan Energi, Jakarta,

1996. 11. P. Van Harten, E Setiawan, Instalasi Listrik Arus Kuat 1,2,3, Binacipta, Bandung 1981. 12. C Darmasetiawan, Lestari Puspakesuma, PT Gramedia Widiasarana Indonesia, Jakarta, 1991. 13. CE Davison, Power Transformer Handbook, Butterworths, 1987. 14. NN, Power Cable, Nuova Fulgorcavi. 15. NN, Statistic Ekonomi, Pusdatin ESDM, Jakarta, 2005. 16. Dr. Tumiran, Managemen Energi, UGM, Jogjakarta, 2003. 17. Katalog Product.

22. Planning Electric Power Line and Substation (TKE418) 2 credits

Objective : Knowing and comprehending problems which need to be paid attention for planning power system line and substation.

17

Material : Optimation of transmission development route, construction of toer and network of transmission/distribution line air-duct and underground-duct, calculation of steady and shift stability characteristics, power flow and short-circuit of radial and loop transmission line, placement of air-duct and underground-duct high voltage equipment, mapping, location arrangement of substation, choosing and placement of substation equipment.

References : 1. MU Dishpande, Electrical Power System Design, Tata McGraw-Hill 1990. 2. Weeks, Transmission and Distribution of Electrical Energy, Herper Raw, 1981. 3. Begamandre, EHVAC Transmission Engineering, Willey Eastern, 1987. 4. PUIL 1987. 5. PUIL 2000. 6. Bahan Penataran untuk Kontraktor Golongan D Saluran Udara dan Gardu Induk, AKLI. 7. Standar.

23. ELECTRIC POWER QUALITY (TKE419) 2 credits

Objective : Capable to analyze electric power quality and the way of increase quality of electronic power.

Material : Perspective of electric power quality, problems in electric power quality : Surge, Voltage Sag & Swell, Over voltage, Under voltage, Outage, Voltage Imbalance, Phase Angle Imbalance, Voltage Modulation, Electric Noise, Harmonic, Frequency Deviation, Electric Power Monitoring, Standard Wave Testing, Minimum Outage Solution, voltage regulation, harmonic filter, power conditioner, UPS, emergency and reserve electrical power, disturbance minimization in consumer side, electric power quality standard, SCADA.

References : 1. Wilson E. Kazibwe,Ph.D & Musoke H. Sendaule, Ph.D, Electric Power Quality Control Techniques,

Van Nostrad Reinhold, 1993. 24. TRACTION AND ELECTRIC TRANSPORTATION SYSTEM (TKE420) 2 credits

Objective : Comprehending kinds of traction motor system, behavior and its usage in transportation system.

Material : Curve of speed to time, energy consumption of direct-current traction motor, single phase traction motor, three-phase traction motor, traction motor testing, traction motor control.

References : 1. Dover, Electric Traction. 2. Partab, Modern Electric Traction.

25. DIRECT-CURRENT POWER TRANSMISSION (TKE421) 2 credits Objective :

Comprehending aspect of direct-current high voltage, and its circuit in electric power transmission. Material :

Economic aspect of direct-current power transmission, rectifier bridge, harmonics and filters, converter and inverter, transmission integration of direct-current and alternating-current power transmission; direct-current high voltage substation.

References : 1. Kimbark, Direct Current Transmission, John Wiley, 1971. 2. EPRI, Methodology Integration of HDVC Link in Large AC. 3. Modhava Roo, Electric Power Transmission System, Khana.

26. NON-CONVENTIONAL GENERATION (TKE432) 2 credits

Objective : Comprehending alternative energy resources as basic knowledge in furthermore system analysis.

Material : Comprehension via study and designing electric power station by fuel cells, MHD, solar cell; indirect generation from ebb wind energy and sea wave; heat energy of earth, OTEC.

References : 1. Neuenswander, Modern Power System, International Text Book, 1971. 2. EL Wakil, Power Plant Technology, McGraw-Hill, 1985.

27. MECHATRONICS (TKE432) 2 credits

Brief Syllabus : Common framework of mechatronics and control system; concept of sensor, transducer, measurement; process characteristic of mechatronics, sensor/transducer classification; mechanic sensor; Resistive, Inductive, and signal conditioner; digital sensor; data acquisition, actuator and power excitement; Actuator components : mechanics actuator, hydraulics actuator, pneumatic actuator, and electric actuator.; Modeling mechatronics system : diagram and mathematics from translation/rotation mechanics, fluids; heat; and common.; Dynamic response system and kinds of control : analog, digital, and logic control; Control components : Microprocessor, PLC, Microcontroller, interface input-output (I/O Device); Mechatronics design system.

18

References : 1. W. Bolton; MECHATRONICS (Electronic Control Systems in Mechanical Engineering); 2. Krause; Wasynczuk; ELECTROMECHANICAL (Motion Devices). 3. C S Rangan; GR Sarma; INSTRUMENTATION Devices and System; 3rd Edition; Tata McGraw-Hill,

New Delhi 1992. 28. PLANNING ELECTRICAL MACHINES (TKE428) 2 credits

Objective : Comprehending common equals, direct-current although alternating-current machines analysis, and capable to design electrical machines.

Material : Basic common theory of electrical machines design, analysis method and magnetic and electric equivalent circuit model, switchover phenomenon analysis, design of single phase and three phase transformer, direct-current machine, induction motor, synchronous generator and motor.

References : 1. CV. Jones, The United Theory of Electrical Machine. 2. B. Atkins, The General Theory of Electrical Machine. 3. Sawhney, A Course in Electrical Machines Design.

29. ELECTROMAGNETIC COMPATIBILITY (TKE433) 2 credits

Objective : Capable to know, detect, and analyze phenomenon of electromagnetic wave interference in electricity system and electronics, and also the ways to overcome its phenomenon.

Material : Basic and physical analysis of electromagnetic interference, phenomenon of interference, electromagnetic, analysis and prediction of Electromagnetic Compatibility, Electromagnetic Compatibility detection method, grounding, bonding, shield, conductor filters, Electromagnetic Compatibility standard, measuring Electromagnetic Compatibility, EMI and Electromagnetic Compatibility in electricity system, problem solving of Electromagnetic Compatibility.

References : 1. Eur Ing Keith Amstrong, Cherry Clough, Electromagnetic Compatibility Design, Installation, and

Testing Handbook, Cherry Clough Consultants, July 2001. 2. P.A. Chatterson, M.A. Houlden, EMC Electromagnetic Theory to Practical Design, John Wiley and

Sons Ltd, 1992. 3. Reinaldo Perez, Handbook of Electromagnetic Compatibility, Academic Press, 1995. 4. William D. Kimmel Daryl D. Gerke, Electromagnetic Compatibility Medical Equipment, Interpharm

Press and IEEE Press, 1995. 30. OPTIMATION AND OPERATION OF ELECTRIC POWER (TKE422) 2 credits

Objective : Capable to apply requirement system with economics factor well-balancedly.

Material : Development generation system based on criteria of technique and economics stability, input/output characteristics thermal and hydro power station, operational principles to minimize system cost and transmission losses disregarded and which is reckoned.

References : 1. Wood & Wollenberg, Power Generation Operation & Control, John Wiley & Son, 1984. 2. Maty, Power System Operation & Control, Tata McGraw-Hill, 1984.

31. SMART SYSTEM IN ELECTRIC POWER (TKE424) 2 credits

Objective : Comprehending kinds of smart system usage to solve problems in electric power system.

Material : Interpretation of Artificial Intelligent (AI), Fuzzy Logic, Genetics Algorithm, Artificial Nerve Network,; Problem solving process and application with Artificial Intelligent, Fuzzy Logic, Genetics Algorithm, and also Artificial Nerve Network in electric power system.

References : 1. Eugene Charniak and Drew McDermont, Introduction to AI, Addison Wesley, 1985. 2. Ivan Bratko, Prolog Programming for AI, Addison Wesley, 1986. 3. Patrick Henry Winston and Berthold Klaus Horn, LISP, Addison Wesley, 1981. 4. David Hu, C/C++ for Expert Systems, Managemen Information Source Inc, 1987. 5. George F.I, William A.S., Artificial Intelligence and the Design of Expert Systems, 1989. 6. Robert I.L., Diane E.D., A Comprehensive Guide to AI and Expert Systems, McGraw-Hill book Co,

1989, 2nd Edition. 7. Klir, G.J., Folger, T.A.; Fuzzy Set : Uncertaintly and Information; PHI, 1988. 8. Kosko, B.; Neural Network and Fuzzy System; PHI, 1991.

32. SAFETY AND SECURITY OF WORK AND LABORS LAWS (TKE425) 2 credits

Objective :

19

Comprehending and understanding the importance of application of safety and security of work in working of electric power installation and operation, and basic law of labors.

Material : Definition of “Safety and Security of Work”, regulation of electrical “Safety and Security of Work” in installation of high voltage line, distribution network, and household, and also electricity system maintenance operation.; Regulation peripheral in labor problem, guarantee of healthy and work safety, and application of labor law regulation.

References : 1. K3 – Kelistrikan, Departemen Tenaga Kerja 2. K3 dalam Operasi dan Pemeliharaan Kelistrikan, PT. PLN. 3. KUHP – Hukum Perburuhan. 4.

33. ESTIMATION METHOD OF LOAD REQUIREMENT AND ELECTRIC COST (TKE426) 2 credits Objective :

Capable to estimate electric load requirement and calculating selling price of electric energy. Material :

Introduction of electric estimation study methodologies, method of prediction and development of electric requirement, development of generation system based on criteria of technique and economics stability, stock/utilization model, flow adjustment model, determination of average cost and marginal cost, Houthaker method, Halvorsen method, Griffin method, Taylor method, Verlleger and Blattenberger, model and structure of household electric requirement, industry/commercial sectors, application of marginal cost technique (long run marginal cost), electric pricing technique (Base Cost of Electric)-PLN (electric country company), Welfare loss by capacity and welfare loss by energy pricing.

References : 1. Munawar Amrullah, Ir, MA, DR, Tarif Listrik yang Mengacu Pada Efisiensi Sumber Daya Nasional

Serta Metodologi Peramalan Kebutuhan Listrik, 1993. 2. Bambang Purnomo, Ir, Ph.D, Tenaga Listrik-Profil dan Anatomi Hasi Pembangungan Dua Puluh Lima

Tahun, Gramedia. 3. Spyros Makridakis, Steven C. Wheelwright, Victor E. Mc Gee, Metode dan Aplikasi Peramalan, Jilid 1

dan Jilid 2, Penerbit Erlangga, Jakarta 1992. 34. ELECTRIC POWER CABLE TECHNOLOGY (TKE427) 2 credits

Objective : Comprehending characteristic, making and choosing cable and electric power conductor.

Material : Characteristic of power cable and coil to air-conduction, cable construction, electric loading, laboring mechanics forces in cable or coil, and heat in insulation, electric breakdown mechanism, dielectric losses as function of voltage and current, power cable insulation, determining capability of current and high voltage conduction, insulation economical calculation, power losses calculation.

References : 1. B.M. Weedy, Underground Transmission of Electric Power, John Wiley & Sons. 2. D. Mc Allister, Electric Cables Handbook, Granada.

35. STANDARIZATIONI (TKE187) 3 credits

According to Diponegoro University Curriculum (MKB).

20

SYLLABUS OF INFORMATICS AND COMPUTER SYSTEM CONCENTRATION 1. ALGORITHM AND DATA STRUCTURE (TKE300) 3 Credit Objective : Students would be able to know and understand the way of finishing problems using computer

program.. Material : Abstract data type; mathematics and heuristic solution; algorithm; hanoi tower; floyd; dijkstra; sorting;

binary tree. Literature : 1. Insap Santosa, Algoritma dan Struktur Data. Prerequisite : Basic of Computer and Programming 2. COMPUTER ARCHITECTURE AND ORGANIZATION (TKE301) 3 Credit Objective : Students would be able to recognize computer structure / organization through the understanding of

component function and also its use. Material : CPU/computer component; ALU and register; processor organization; arithmatic operation; fixed

point, floating point; multiplication, division, addition, and reduction operation;interface; bus and I/O system; processor; memory types; memory technology; micro programme control unit; direct addressing technique;immediate; indirect index; relative instruction set for data transfer and arithmatic operation.

Literature : 1. John P. Hayes, Com nputer Architecture and Organization, McGraw-Hill. 2. Andrew S. Tanembaum, Structured Computer Organization, Prentice Hall, Inc. 3. M. Morris Mano, Computer System Archiitecture, Prentice Hall, Inc. Prerequisite : Digital System 3. OBJECT ORIENTED DESIGN AND ANALYSIS (TKE322) 2 Credit OBJECT ORIENTED DESIGN AND ANALYSIS LAB. WORK(TKE322P) 1 Credit Objective : giving basic knowledge and skills in analysis and create a model of object oriented software.. Material : Analysis role and function; system analysis; specification analysis; analysis technique and method;

method and process of designing software; designing user interface; guarantee the qiality of software.. Literature : 1. Peter Coad, Edward Yourdon, "Object-oriented Analysis", Prentice Hall Inc, 1990. 2. Peter Coad, Edward Yourdon, "Object-oriented Design", Prentice Hall Inc, 1991. 4. OPERATING SYSTEM (TKE302) 2 Credit Objective : Learning and giving understanding about the basic concept of operating system. Material : Preface; process; interprocess synchronization. interprocess communication; memory, processor, and

I/O arrangement; file system. Literature : 1. Andrew S. Tanembaun, Operating System, Design and Implementations, Prentice Hall, 1987.. 2. Madnick and Donovan, Operating System, Computer Service Series. Prerequisite : Basic of Computer and Programming 5. ASSEMBLY LANGUAGE PROGRAMMING (TKE304) 2 Credit Objective : Giving an understanding about theory of programming using assembly Ianguage and practice it. Material : Learning instruction functions; I/O; moving memory/ register; arithmatics and logic; programme

sequence and control; register; addressing; emulator Literature : Prerequisite : Algorithm and Data Structure 6. TEORY of LANGUAGE & AUTOMATION (TKE323) 2 Credit 7. MULTIMEDIA (TKE317) 2 Credit MULTIMEDIA LAB WORK (TKE317P) 1 Credit Objective : Students would be able to understand and have the ability to design programme based on graphical and

voice. Material : Preface; multimedia programming; interface with sound card and graphic card; designing animation

programme; hyper text document; and another multimedia application above Windows. Literature : 1. Microsoft, Visual Basic 4.0, User Guide, Technical Refference, Microsoft Press, 1995. 2. Borland International, Borland C++ : Multimedia Programming; Borland, 1994. 8. OBJECT ORIENTED PROGRAMMING (TKE324) 2 Credit ADVANCED PROGRAMMING LAB WORK (TKE324P) 1 Credit Objective : Students would be able to understand the theory of C++ programming and practice it Material : Part of C programme; constant and variables; axpression and statement; function; basic class,

programme flowchart; reference; advanced function; array; inheritance; polymorphism; stream; object oriented analysis and design.

Literature : 1. James P Cohoon, Jack W Davidson, C++ Program Design, Second Edition, McGraw-Hill. Prerequisite : Algorithm and Data Structure; Software Engineering 9. DIGITAL SIGNAL PROCESSING (TKE108) 3 Credit

21

Objective : Giving basic knowledge about signal digital and digging methods of signal processing and itsapplication.

Material : Signal sampling concept, time-frequency analysis, Fourier transform, DFT and FFT, Z transform, digital filter scheme, aplication of digital signal processing of noise reduction.

Literature : 1. Roman Kuc, Introduction to Digital Signal Processing. 2. Antoniau, Digital Filter Analysis and Design. 3. Emmanuel C. I. dan Barrie W. J., Digital Signal Processing: A Practical Approach. 4. Spingel & William R, Industrial Management. 5. S. Kadariah, Evaluasi Proyek, UI Press Prerequisite : Engineering Mathematics II, Digital System 10. INTERFACE DAN PERIPHERAL (TKE106) 2 Credit INTERFACE DAN PERIPHERAL LAB WORK (TKE106P) 1 Credit Objective : Students would be able to understand the element principle of interface and peripheral in digital

electronic system and computer. Material : Bus Interfacing, I/O Interfacing, Memory Interfacing, two way communication principle,

Handshaking, Serial & Parallel interfacing, Data Transfer, Digital Standard Interfacing, Timing system, Interupt & DMA system, D/A, A/D, transduscer, Signal conditioning, LAN actuator, WAN, Sofware Interfacing.

Literature : 1. Digital Data Bus,Hand Book. 2. Krutz, R.L, Interfacing Techniques in Digital Design, John Wiley and Sons, 1988. 3. Rodnay Zaks, Microprocessor Interfacing Techniques, 1989. 4. James W Coffron, The IBM PC Connections, 1986. Prerequisite : Microprocessor 11. DATA COMMUNICATION (TKE107) 3 Credit Objective : Students would be able to understand data communications process at various data communications

network infrastructure Material : Architecture and protocol, data transmission, transmission media, coding data, data communication

interface, datalink control, multiplexing, packet switching, ATM, Frame Relay, ISDN, B-ISDN. Literature : 1. DC Green, Data Communication, Longman Group – UK, 1991. 2. William Stallings, Data and Computer Communication, Prentice Hall, 2000. 12. COMPUTER NETWORK (TKE307) 2 Credit COMPUTER NETWORK LAB WORK (TKE307P) 1 Credit Objective : Students would be able to understand computer network structure and also its application. Material : Basic architecture of protocol network; network surface interface; local area network internal

protocoles; Adressing, Routing; flow control; high level protocol. Literature : 1. Black, U D., Data Network, Prentice Hall International. Prerequisite : Basic of Computer and Programming 13. DATA BASE SYSTEM (TKE305) 2 Credit DATA BASE SYSTEM LAB WORK (TKE305P) 1 Credit Objective : Learning and giving an understanding about database concept. Material : Database architecture; hierarchy of database system; database system network; relational database

syatem; relational query language; theory of recovery and concurrency relational database design; security and integrity; distributed database.

Literature : 1. CJ. Date, An Introduction to Database System, Addison Wesley Publishing Company, 1987. 2. S. Antre, Database Managemant System, Techniques and Design. Prerequisite : Algorithm and Data Structure 14. CRYPTOGRAPHY (TKE308) 2 Credit Objective : Introducing and giving an understanding one of the data security concept at single host and computer

network. cryptography technology guarantee data sent to the computer network more safely. Material : basic concept of cryptography; cryptography protocol; digital signature; checksum; symmetrical and

asymmetrical key, algorithm of cryptography, some cryptography applications.. Literature : 1. Bruce Schneier, Applied Cryptograpy, John Wiley and Sons, Second Edition, 1996. 2. A Menezes, P Van Oorschot, S Vanstone, Handbook of Applied Cryptography, CRC Press, 1997. 15. DISCRETE MATHEMATICS (TKE328) 2 Credit Objective : After following this class, students would be able to use discrete mathematics concepts in problem

analysis, designing system, trouble-shooting problems using algorithm, and or in problems related with number theory at higher level class.

Material : Logic( especially propositional logic) and authentication; theory of association; matrix; relation and function; mathematical induction; algorithm and integer; combinatoric and discrete possibility; Boolean algebra; graf and its application; tree and its application; and algorithm complexity..

Literature : 1. Kenneth H. Rosen, Discrete Mathematics and Its Application 5th edition, McGraw-Hill, 2003. 2. C.L. Liu, Element of Discrete Mathematics, McGraw-Hill, 1985.

22

3. W.K. Grassmann and J.P. Tremblay, Logic and Discrete Mathematics, a Computer Science Perspective, Prentice Hal International, Inc, New Jersey, 1996l.

16. SOFTWARE ENGINEERING (TKE306) 2 Credit Objective : Learning technique and the way of developing software with high quality. Material : Definition and Paradigm: software engineering and growth and also its prospect; software component

and characteristic, cycle of life and prototyping software engineer. Planning and conditions of software, designing software, Coding and programming language, Test-Drive and maintenance of software, software management and configuraton..

Literature : 1. Pressman, R., Sofware Engineering: A Practitioner’s Approach, Mc GrawHill, 1987. 2. De Macro, Tom, Controlling Sofware Project, Yourdon Press, 1982. 3. Devitsitis, Operation Management. 4. Spingel & William R, Industrial Management. 5. S. Kadariah, Evaluasi Proyek, UI Press Prerequisite : Algorithm and Data Structure 17. INFORMATION SYSTEM (TKE 3329) 3 Credit Objective : Giving an understanding of SIM meaning, organizational pattern of SIM, supplying information for

decision making in so many area management of organization. Material : Meaning and role of SIM. Management, system information and approach. Information for the

decision making. Planning of SIM: detail and Macro Device. Applying SIM. Evaluate SIM.. Literature : 1. Murdock R.G. and Ross J.E, Information System for Modern Management; Prentice-Hall, 1975. 2. Lucas H.C, Why Information System Fail, Columbia Univ. Press, 1975. 18. ANALOG ELECTRONICS (TKE102) 3 Credit Objective : Introducing and giving basic knowledge about various amplifiers with various characteristic. Material : Cascade amplifier, feedback amplifier, oscilator, controlled power amplifier, narrow band amplifier

and wide band amplifier, power amplifier class A, class AB, class B, and class C, Operational Amplifier.

Literature : 1. Millman – Holkias, Integrated Electronics . 2. Bernard Grab, Electronic Circuit and Applications. 3. Charles L Alley – Kenneth W. Afwood, Electronic Engineering. 4. Spingel & William R, Industrial Management. 5. S. Kadariah, Evaluasi Proyek, UI Press Prerequisite : Basic of Electronic 19. PEMODELAN DAN SIMULASI SISTEM (TKE215) 2 Credit Objective : Student would be able to compile simulation model to the problems of system, expressing simulation

model in the form of computer program, doing an experiment to the system using simulation model, doing statistical analysis to the result of simulation, taking conclusion from the result of analysis, and also give interpretation to the result.

Material : Modelling Simulation; Steps of Simulation Analysis; Simulation Result Accuracy; Calculation of Sample Requirement; Mechanism of Stopping Simulation; Average and Variance Value Calculation Method (sample and time); Produce Random Variable; Static System Simulation and its application; Discrete System Simulation; Interpretation of Event, State, and Statistic; Mechanism of Progressing Time; Organization of Discrete System Simulation; Application of Discrete System Simulation; Usage of Simulation Program Package; Continu System Simulation; Application of Continu System Simulation.

Literature : 1. Law,A.M. dan D.W.Kelton : "Simulation Modeling and Analysis", McGraw-Hill, New York 1991 (2nd edition).

2. Shannon,R.E. : "Systems Simulation : The Art and Science", Prentice-Hall, New Jersey 1978. Prerequisite : Probability, Statistic, and Stochastic.

20. SYMBOLIC COMPUTATION (TKE321) 2 Credit Objective : Students would be able to understand simbolic number computation and its operation. Material : Symbolic system and its proceed. Symbolic proceeder architecture. . Literature : 1. Symbolic computer architecture. Prerequisite : Numeric Computation 21. THEORY OF QUEUE AND RELIABILITY (TKE320) 2 Credit Objective : Students would be able to understand theory of queue, its concept and its reability process. Material : Discrete and continu . peluang distribution, queue theory, single queue & single server, single queue

& multiple server, reliability theory and process. Literature : 1. Walpole, Ronald E., Probability And Statistic For Engineers and Scientist, 3rd Edition, Collier

Macmillan, 1985. 2. Queueng Method, Prentice Hall Intl, 1992. Prerequisite : Algorithm and Data Structure 22. NETWORK PROGRAMMING (TKE311) 3 Credit

23

Objective : Students would be able to understand programming at computer network, especially at computer network of TCP / ip.

Material : TCP/ IP protocol, network programming technique, socket elementer, multiplexing I/O, I?o non blocking, socket routing, broadcasting, threading, XTI..

Literature : 1. Barry Nance, Network Programming in C, Que, 1990. 2. W. Richard Stevens, Unix Network Programming, networking APIs: Sockets and XTI, Prentice

Hall, 1999. Prerequisite : Computer Network 23. PARALEL PROCESS (TKE315) 2 Credit Objective : Students would be able to understand the concept of parallel processing in computer. Material : uniprocessor-multiprocessor system, memory and I/O system, vector processing and pipeline princip,

structure and algorithm of array process.. Literature : 1. Hwang K, Parallel Processing. 2. Desrochers, George R, Principles of Parallel and Multiprocessing, Mc Graw-Hill International

Editions, 1988. Prerequisite : Basic of Computer and Programming, Computer Organization, Microprocessor 24. BIOINFORMATIC (TKE330) 2 Credit 25. SMART SYSTEM (TKE313) 3 Credit Objective : Giving knowledge about smart system and its application Material : Definition of AI, AI and internal interpretation, predicate calculus, indexing, alternative pointer and

notation, LISP and PROLOG, vision, early processing, NLP, search algorithm, plan interpreter language comprehension..

Literature : 1. Eugene Charniak & Drew McDermont, “ Intro to AI”, Addision Wesley, 1985. 2. Ivan B, “Prolog Programming for AI”, Addision Wesley, 1986. 3. Patrick H W & Berthold K H, “LISP”, Addision Wesley, 1981.. Prerequisite : Basic of Computer and Programming 26. COMPUTER BASED DESIGN (TKE316) 2 Credit Objective : Students would be able to understand system design that using computer as its supporting device. Material : Preface, system design using computer, structure and environment, developing tools, simulation and

checking, application in electronic design, . Pendukung tambahan dan dokumentasi, design management.

Literature : 1. Groover M.P. & Zimmers E.W.: CAFD/CAM, PHI, 1987. Prerequisite : Software Engineering 27. MOBILE COMPUTATION (TKE326) 2 Credit Objective : After following this class, students would be able to understand the basic problems in mobile

computation. Material : Nircable communication, bandwith management, location management and mobile tracking, mobile

IP, mobile application, mobile agent.. Literature : 1. Fundamentals of Mobile and Pervasive Computing by S. K. S. Gupta, F. Adelstein, G. Richard and

L. Schweibert. 28. DIGITAL IMAGE PROCESSING (TKE115) 3 Credit Objective : Giving an understanding about the concept of digital image processing and searching more about

processing algorithms also its application. Material : Imaging concept, 2-dimension basic mathematics, image processing, image analysis, segmentation and

thresholding, image bundle system, image processing application. Literature : 1. Anil K. Jain, Fundamentals of Digital Image Processing. 2. John C. Rush, The Image Processing Handbook. Prerequisite : Digital Signal Processing 29. THEORY OF INFORMATION (TKE325) 2 Credit Objective : Giving basic knowledge about information measurement and its coding. Material : Information content concept, entropy function, basic coding, Huffman coding, arithmetic coding,

coding element, information theory application. Literature : 1. Taub dan Schiling , Principles of Communication Systems. 2. Fazlollah M. Reza, Introduction to Information Theory. 3. C.E. Shannon, A Mathematical Theory of Communication. Prerequisite : Probability, Stathistic, and Stochastic 30. COMPILATION ENGINEERING (TKE319) 2 Credit Objective : Learning and giving an understanding about basic concept of compilation technique that is contains of

its function, component, steps, and its working mechanism. Material : Preface, basic concept, compilation step, lexical analysis(scanning), syntax directed translation, code

generation, code optimization, information table, error recovery..

24

Literature : 1. Aho, Sthi dan Ullman, Compilers, Principles, Techniques and Tools, Addison Wesley Publishing Company, 1986.

2. David Gries, Compiler Construction for Digital Computers, Wiley International Edition. Prerequisite : Algorithm and Data Structure 31. COMPUTER AND HUMAN INTERACTION (TKE326) 2 Credit 32. DIGITAL COMMUNICATION (TKE109) 3 Credit Objective : Students would be able to understand and assessing digital communications which cover canal code

processing, demodulation and modulation, ancription and description, multiple and demultiple access. Material : Digital modulation and demodulation that consists of MPSK, MQAM, MFSK. Coding: Line Encoding,

Block Code, Convolution Code, Turbo Coding. Preface to data compression: MPEG1, MPEG2, MPEG3, MPEG dll. Spread Spectrum: Direct Sequence, Frequency Hopping, Time Hopping, Hybrid Encription, and Description..

Literature : 1. Terplan, Digital Communication. 2. Simon Haykin, Digital Communication. 3. Proakis, Digital Communication. 4. Introduction to Spread Spectrum. Prerequisite : Telecommunication System 33. COMPUTER GRAPHIC (TKE327) 3 Credit Objective : Giving an understanding of application technique that use the screen monitor as a media. Material : Recognize graphic system tools(joystick, control dials, flat bed plotter). Compare pascal graphic

instruction with Autocad instruction and Basic instruction. Recognize interpolation graphic function, screen normalization, data graphic structure, aproximation, animation, 3-dimension graphic, graphic transform.

Literature : 1. William M. Newman, Robert F. Sproull, Principle of interactive Computer Graphics. 2. Computer graphics, Schaum’s series. 3. Computer graphics, Voisinet. 34. STANDARDIZATION (TKE187) 3 Credit According to the MKB of UNDIP. 35. PATTERN RECOGNITION (TKE119) 2 Credit Objective : Giving basic understanding about principles of pattern recognition and searching more about its

method, also applying its algorithm. Material : Pattern recognition concept, decision function, classification with decision function, classification with

equality function, characteristic election, classification with nerve network. Literature : 1. Principles of Pattern Recognation.

2. Haykin, Neural Network: A Comprehesive Foundation.

25

SYLLABUS OF CONTROL CONCENTRATION 1. OPTIMATION (TKE204) 3 credit

Objective : The student will be able to comprehend the base of optimation technique, methodes and its application.

Material : Optimation Definition, Optimation problem classification, problem formulation, classical optimation methode, unconstrains optimation problem, constrain enequality optimation problem, Lagrange methoe, direct subtitution, sadle point case, kohn tucker condition, Several optimation methode: Linier programming, graphic methode, metode of simpleks I, metode of simpleks II, Dynamic programming, interger programming.

Refference : 1. Brighter, Charles S., Phillip, Don T., dan Wilde, Douglass J., Foundation of Optimization, Prentice Hall of India, New Delhi, 1982.

2. Gill, Phillip E., Murray, Walter dan Wright, Margaret H., Practical Optimization, Academic Press, New York, 1981.

3. SS Rao, Optimization and Its Aplication.

2. ELECTRONICS INSTRUMENTATION SYSTEMS (TKE200) 3 credit Objective : The student will have strong knowlage of measurement device and perception in electronic field. Material : DC and AC bridge, Osiloscop Voltage measurement, current, power, phasa, electronic impedans,

RLC, frequency and period, electronic phasor diagram, counter frekuency, Jembatan dc dan ac; osiloskop; pengukur tegangan, arus, daya, fasa, tahanan elektronis, RLC, perioda dan frekuensi; diagram fasor elektronis; frequensi counte, spectral analiser, distortion analyzer, electrical wave generator, data aquition, data storage systems.

Refference :1.Larry D. Jones dan A. Foster Chin, “Electronic Instruments and Measurements”. 2. Cooper. William D, “Instrumentasi Elektronik dan Teknik Pengukuran”, Erlangga,1978. 3. Dublin O, “Measurement System”, Prentice-Hall.

Prasyarat : Dasar Elektronika, Pengukuran Listrik, Rangkaian Listrik I dan II 3. MULTIVARIABLE CONTROL SYSTEMS (TKE202) 3 credit

Objective : The students will have strong basic math for modern control systems and basics of modern control. The student will be have knowlage of analytical methode and multivariable system designing.

Material : concept of state; system reprentation with state, state space equation, homogen and non homogen, state transition matrix; impulse response matrix; controlability; observability; state feed back; teory of observator. Representation of state system multivariabel; reachability; decomposition;decentralization; parsial systems; frequency representation of systemsrepresentasi dalam domain frekuensi; design of single loop, performance definition,pole and zero concept, Matrix Fraction Description (MFD).

Refference :1. Derusso.P.M.et.al. : "State Variables for Engineers", John Wiley & Sons Inc., 1965.

2.Chen, C.T. : "Linear System Theory and Design", Hold-Saunders International,1984. 3.Kailath,T. : "Linear Systems", Prentice-Hall, New Jersey 1981. 4.Apte,Y.S. : "Linier Multivariabel Control Theory", Tata McGraw-Hill, New Delhi,1981. 5.Chen, C.T. : "Linear System Theory and Design", Hold-Saunders International,1984. 6.Kailath,T. : "Linear Systems", Prentice-Hall, New Jersey, 1981. 7.Maciejowski,J.M : "Multivariable Feedback Design", Addison Wesley Pubs,Cornwall, 1994.

4. ANALOG CONTROL SYSTEMS (TKE203) 2 Credits ANALOG CONTROL SYSTEMS LAB WORK(TKE203P) 1 Credit

Objective : The student will be could analyzing systems stabilization with various methode and could design compencator in time and frequency domain.

Material : Spesification of control systems, Spesifikasi Disain Sistem Kontrol (stabilitas, sensitivitas, disturbance rejection); analising of Error; analizing methode : Root locus, Bode diagram , Nyquist diagram; design of compensatorr; Nonlinier system analizing (describing function, phase plane), stability concept, Lyapunov

Refference : 1. Ogata, Katsuhiko : "Modern Control Engineering", Prentice-Hall, 1990. 2. Benyamin Kuo : "Automatic Control Systems", Prentice-Hall, 1989. 3. Shinners :"Modern Control System & Application", Prentice-Hall, 1982. 4. John Von de Vegte : "Feedback Control Systems", McGraw-Hill, 1992.

Condition : Basic of Control Systems 5. MODELING AND SYSTEM IDENTIFICATION (TKE224) 3 Credits MODELING AND SYSTEM IDENTIFICATION LAB WORK TKE224P) 1 Credit

Objective : The student will be able to draw modeling and system identification using math. approach Materi : Introduction to system, System modelling, first and seccond order systems modelling, transient respon,

frequency respon, Non parametric identification, (corelation analizyng,, transient, spektrum), offline and online (LS, RLS, SLS, ELS, LMS).

Refference : 1. Law,A.M. dan D.W.Kelton : "Simulation Modeling and Analysis", McGraw-Hill, New York 1991 (2nd edition).

26

2. Shannon,R.E. : "Systems Simulation : The Art and Science", Prentice-Hall, New Jersey 1978. 6. MANUFACTURING AND PROCESS CONTROL SYSTEMS (TKE225) 3 Credits MANUFAC. AND PROCESS CONTROL SYSTEMS LAB WORK (TKE225P) 1 Credit

Objective : The student will be have good knowlage of control systems for industrial process and Manufacturing.

Material : Introduction to manufacturing and process concept, Manufacturing Process Control, Sensor and transduser, pneumatic and hidrolic, Electronic Controller, PLC, CNC, introduction to DCS, Centralize control system systems

Refference : 1. Considine, Douglas M, “Process / Industrial Instrument and Control Handbook”, Prentice- Hall, 1993.

2. Chandigarh, TTTI, “Industrial Electronics and Controls”, McGraw-Hill, India, 1995. 3. Schuler, Charles A, and McNamee, William L, “Modern Industrial Electronics”,

McGraw-Hill, 1993. 4. Pellerin and MM Holley, “Practical Design Using Programmable Logic”, Prentice-Hall, 1991. 5. Vickers, et.al., “Numerically Controlled Machine Tools”, Prentice-Hall, 1990.

7. OPTIMAL CONTROL SYSTEMS (TKE207) 3 Credit

Tujuan : The students will be could design optimal based control system Material : Pontryagin maximum principal; Hamiltonian calculus variation; prinsip; Linear Quadratic Regulator

(LQR) dan LQ tracking; sub-optimal; discret systems LQR; dinamik programming; output feedback; separation teory l; constrained-input problem.

Reference : 1. Lewis,F.L. : " Applied Optimal Control and Estimation ", Prentice-Hall, New Jersey,1992. 2. Lewis,F.L. : " Optimal Control ", Prentice-Hall, New Jersey, 1995. 3. Anderson,B.D.M. : "Optimal Control, Linear Quadratic Methods", Prentice-Hall,

New Jersey 1989. Condition : Optimation, Multivariable control systems

8.ADAPTIVE CONTROL(TKE226) 3 Credit

Objective : The student will be able to design algoritm and adaptive control system control strategy and can implement using software.

Material : Definition of adaptive control, parametric model, parameter estimation (nonrecursif, recursive), system validation, Model reference adaptive system, Self tuning regulator (Direct, Indirect, Linier Quadratic); Stocastic adaptive control systems, adaptive control stability.

Reference : 1. Karl Johan Åström & Björn Wittenmark : "Adaptive Control", Addison-Wesley, 1997.

2. Ian Dore Landau : "System Identification and Control Design", Prentice-Hall, 1990. 3. Shankar Sastry dan Marc Bodson : "Adaptive Control Stability, Convergence and Robustness",

Prentice-Hall Advanced Reference Series, 1989. 9. SMART CONTROL SYSTEMS (TKE219) 3 Credit

Objective : The student will be have good understanding of artificial intelligence for Control purpose Material : Definition of Smart control systems and basic concept, knowlage base, inferencial machine,

chaining, rule based control system, artificial neural networks, fuzzy control, genetic algoritm and application in smart systems.

Reference : 1. ___, "Industrial Application of Fuzzy Logic and intelligent Systems", IEEE Press, 1995. 2. Wang, LX, “Genetic Algorithm and Neural Network”, Prentice Hall, 1996. 3. Eugene Charniack and Drew M, “Introduction to AI”, Addision Wesley, 1985.

10. DIGITAL CONTROL SYSTEMS (TKE227) 2 Credit DIGITAL CONTROL SYSTEM LAB. WORK (TKE227P) 1 Credit

Objective : The student will be able to design computer and digital machine based control systems. Material : Digital control system basic concept; discreet signal, Z transformation, sampling teorhm, digital

control system analisys, (stability, sensitivity, robustness, controllability, observability); pole placement design (state-space and polynomial approach); digital controller implementation.

Reference : 1. K.J. Astrom, Computer Controlled System, Theory and Design : Third Edition, Prentice Hall, 1997.

2. K. Ogata, Discrete-Time Control System, Prentice Hall, 1987. 3. W. Forsythe, Digital Control, McGraw Hill, 1991.

Condition : Multivariable Control Systems 11. CONTROL SYSTEMS COMPONENT (TKE205) 3 Credit

Objective : The student will have good understanding of elements, performance analisys and design procedure of control instrument compactly.

Material : Measurement basic concept, sensor and transducer (temperatur, pressure, flow, position, velocity and force); signal conditioning (amplifier, filtering); data aquition (AD-DA, interfacing); actuactor.

27

Reference : 1. Jacob,J.M. : "Industrial Control Electronics : Aplications and Design", Prentice-Hall Inc., Englewood Cliffs, New Jersey 1989.

2. Gayakwad, R and Sokoloff, L : Analog and Digital Control Systems, PHI 1988. 3. Maloney,Timothy J. : "Industrial Solid State Electronics : Devices and Systems", Prentice-Hall

Inc., Englewood Cliffs, New Jersey 1986. 4. Rayan CS, Sarma GS and Mani VSV : Instrumentation : Devices and System, Mc Graw Hill,

1987. Conditiont : Basic of Control Systems, Digital system design and microcontroller

12. MODEL BASED CONTROL SYSTEMS (TKE230) 3 Credit

Objective : The student will be able to design control for plsnt snd process based know model Material : Internal Model Control, Feedfoward Control, Cascade Control, Inferensial Control, Model Predictive

Control reference : Coleman Brosilow, Babu Joseph, “Techniques of Model Based Control”, Prentice Hall 2002 13. LARGE SCALE SYSTEMS (TKE231) 2 Credit

Objective : The student will be able to consider several aspect in large scale systems, evaluate systems, and plan several model

Material : Introduction to large scale systems, general Aggregation, modal aggregation, equal Aggregation, optimum design, distributed control, hyrarki control, control application.

Reference : 1. Andrew Sage : "Methodology for Large Scale Systems", McGraw-Hill, 1977. 2. J War Field : "Sociatal System", John Wiley, 1976. 3. Thomas Saati : "Analytical Hirarchical Planning", Mc-Graw-Hill, 1980.

Condition : Estimasi dan Identifikasi Sistem 14. EMBEDDED CONTROL SYSTEMS (TKE232) 2 Credit

Objective : The student will be able to design control system embedded in microcontroller or digital machine for any purpose

Material : Embedded C, Microcontroller, FPGA, StateFlow, Finite State Machine, introduction to VHDL Reference :1. Matlab manual, StateFlow 2. 15. THE FUTURE TREND OF CONTROL FIELD (TKE233) 2 Credit

Objective : The student will be have good kwonlagde of control systems field development Material :Special topic of control field development, automatic control, stability, adaptive control, optimal

control, smart control and system simulation. Condition :the student is taking final project

16. ROBUST CONTROL SYSTEMS (TKE234) 2 Credit Objective : The student will be have good knowlage about robust control and can implement it in industrial

process. Material : Introduction to Robust Control; Multivariabel Frequency Response Analysis; The H2 Control

Problem; The Full Information Control Problem; Minimax Estimation and H-inf Filtering; The Solution of the H-inf Generalized Regulator Problem; Model Reduction by Truncation; Optimal Model Reduction; Design Case Studies in Industrial Processes.

Reference : 1. Green, M, “Robust Linier Control”, Prentice-Hall, USA, 1995. 2. Grimble, MJ, “Robust Industrial Control: Optimal Design Approach for Polynomial System”,

Prentice-Hall, UK, 1994. 17. MECHATRONICS (TKE432) 2 Credit

Objective :The students can explain operation principle of various mechatronic systems Material : This subject contain basic concept, elements, examples and operation principle of

mechatronic system Reference : 1. W.Bolton; MECHATRONICS (Electronik Control Systems in Mechanical

Engineering); 2. Krause; Wasynczuk; ELECTROMECHANICAL (Motion Devices). 3. C S Rangan; GR Sarma; INSTUMENTATION Devices and System; 3rd Edition; Tata McGraw-Hill, New

Delhi1992. 18. DIGITAL IMAGE PROCESSING (TKE115) 3 Credit Objective : The student will be have good understanding of digital image processing , algoritm and implementation.

Material : Imaging concept, Two dimention basic math, image processing, image analizing, Segmentation and thresholding, image measurement, image file systems, application of image processing

Reference : 1. Anil K. Jain, Fundamentals of Digital Image Processing. 2. John C. Rush, The Image Processing Handbook. 3. Prasyarat: - Pengolahan Sinyal Digital

28

19. ASSEMBLY LANGUAGE PROGRAMMING (TKE304) 2 Credit Objective : The student will be have good understanding of assembly language programming, eather teoritical

and practical. Material : Basic function and instruction : I/O, shift memori/register, logic and aretmatic, sequence and program

control, register, addressing and emulator Reference : 1. 20. DIGITAL SYSTEM DESIGN (TKE114) 2 Credit Objective : The student will be able to design digital system application Material : Combinatorial network, sequencial networks, RAM and ROM interface Reference : 1. Ronald J. Tocci, Digital System: Principles and Application, Prentice Hall Intl

Edition, 1988 2. Samuel C. Lee, Digital Circuit and Logic Design 3. John D. Lenk, Handbook of Digital Electronics

Condition : - Teknik Digital, Dasar Elektronika 21. OPERATION SYSTEMS (TKE302) 2 Credit Objective : mempelajari dan memahami konsep dasar sistem operasi. Material : Pendahuluan, proses, sinkronisasi interproses, komunikasi antar proses, pengaturan memori, pengaturan prosesor, pengaturan I/O, sistem file. Reference : 1. Andrew S. Tanembaun, Operating System, Design and Implementations, Prentice Hall, 1987. 2. Madnick and Donovan, Operating System, Computer Service Series. Prasyarat : - Dasar Komputer 22. ANALOG ELECTRONICS (TKE102) 3 Credit Objective : The student will be have good understanding of Operational amplifier and their characteristic. Material : Cascade Amplifier, Feedback Op Amp, Ocilator, controlled Power supply, Op Amp type A, AB, B and C,

Short and wide band Op Amp. Reference : 1. Millman – Holkias, Integrated Electronics

2. Bernard Grab, Electronic Circuit and Applications 3. Charles L Alley – Kenneth W. Afwood, Electronic Engineering

Condition : - Basic Electronic

23. ADVANCE SISTEM IDENTIFICATION (TKE228) 2 Credit Objective : The student will be could identify and simulate nonlinear system with varying methode Material : Nonlinear systems, Nonlinear systems respon, Nonlinear systems modeling , Neural networks modeling, fuzzy

identification. Reference : 1. Norgaard dkk, Neural Networks for Modelling and Control of Dynamic System,Springer Condition : - System Identification 24. ROBOTIC (TKE223) 3 Credit

Objective : Mahasiswa mampu merancang sistem kontrol untuk robot jenis mobile dan lengan robot. Material : Sejarah robotika, mobile robot, penggerak, manipulator, transformasi koordinat, kinematika dan

dinamika robot; differential motion dan Jacobian; perencanaan trayektori manipulator (robot); kontrol gerak robot; studi kasus.

Reference : 1. Mark W Spong, M Vidyasagar : "Robot Dynamics and Control", John Wiley & Sons, 1989

2. H Asada, JJE Slotine : "Robot Analysis and Control", John Wiley & Sons, 1986 Prasyarat : Dasar Sistem Kontrol, Sistem Instrumentasi Elektronika, Komponen Sistem

Kontrol

25. DECISION MAKING SYSTEMS (TKE229) 2 Credit Objective : The student will be could making optimal decition. Material : System and Teory of Decition, Performance based Decition making, Total quality

managemen, voting based decition making, Analitical hierarki process. Reference :

1. Hwang, C. And M. Lin. 1987. Group decicition making under multiple criteria: Method and applications. Springer-Verlag, Berlin

2. Marimin. Teknik dan Aplikasi Pengambilan Keputusan Kriteria Jamak, 2005, Penerbit PT Grasindo Jakarta

26. PATERN RECOGNITION (TKE119) 2 Credit

Objective : The student will be have good understanding of patern recognition princip, could analys and design patern recognition algoritm

Material : Patern recognition concept, decition function, clasification using decition function.

29

Reference : 1. Principles of Pattern Recognation 2. Haykin, Neural Network: A Comprehesive Foundation.

27. POWER ELECTRONIC (TKE408) 2 Credit

Objective : The student will be could analys and design power electronic circuit for AC to AC, DC to DC, DC to AC and AC to DC converter.

Material : Power electronic component, power electronic circuit and controller, rectifier , DC Choper , inverter and cycloconverter, natural and force comutation, AC- AC converter, harmonics.

Reference :1. Bedford & Hoft, Principles of Inverter Circuit, John Wiley & Son 1964 2. Herman D., An Introduction to Power Electronics, ITB, Verlag, 1986.

28. INTERFACE AND PERIPHERAL (TKE106) 2 Credit Objective : The student will have good understanding of interface and peripheral basic concept, either in digital system

or computer Material : Bus Interfacing, I/O Interfacing, Memory Interfacing, Bidirectional communication, Handshaking, Serial

& Parallel interfacing, Data Transfer, Standar digital Interfacing, Timing system, Interupt & DMA system, D/A, A/D, transduscer, Signal conditioning, actuactor, LAN, WAN, Sofware Interfacing.

Reference : 1. Digital Data Bus,Hand Book. 2. Krutz, R.L, Interfacing Techniques in Digital Design, John Wiley and Sons, 1988. 3. Rodnay Zaks, Microprocessor Interfacing Techniques, 1989. 4. James W Coffron, The IBM PC Connections, 1986

Prasyarat : - Mikroprosessor. 29. DIGITAL SIGNAL PROCESSING (TKE108) 3 Credit

Objective : The student will be have good understanding of digital signal and could analys and design digital signal processing systems

Material : Signal sample concept, time and frequency analisisng, Konsep pencuplikan sinyal, analisis waktu-frekuensi, Tranformasi Fourier transform, DFT and FFT, Z transform, Digital filter design, digital signal processing for noise reduction.

Reference :1. Roman Kuc, Introduction to Digital Signal Processing 2. Antoniau, Digital Filter Analysis and Design. 3. Emmanuel C. I. dan Barrie W. J., Digital Signal Processing: A Practical Approach.

Condition : Math of Engineering II, Digital Engineering

30. STANDARITATION (TKE037) 3 Credit As According To MKB of University Diponegoro. 31. OBJECT ORIENTED PROGRMMING (TKE324) 2 Credit Objective : The student will be have good understanding of object oriented programming and could practice it Material : Part of C language, constant and variable, expretion and function , basic class, program flow, pointer, reference, advance function, array, inheritance, polymorphism, stream, object oriented analys and design. Reference : 1. James P Cohoon, Jack W Davidson, C++ Program Design, Second Edition, McGraw-Hill Condition : - Algoritma dan Struktur Data - Rekayasa Perangkat Lunak

Electrical Engineering sillabus

Documents

Transcript of Electrical Engineering sillabus